585 research outputs found
Production of an egg yolk antibody against Parietaria judaica 2 allergen
Abstract Specific antibodies are essential tools for studying proteins as well as for diagnostic research in biomedicine. The egg yolk of immunized chicken is an inexpensive source of high-quality polyclonal antibodies. The 12-kDa Parietaria judaica 2 allergen was expressed as a fusion protein and was used to immunize Leghorn chickens. In this paper, we show, using 2-dimensional gel electrophoresis and immunoblotting, that chicken antibodies raised against a recombinant allergen can be used to recognize similar proteins from a pollen raw extract. Allergen identity was confirmed by nanoLC-nanospray-tandem mass spectrometry analysis. Our data demonstrate for the first time that a synergistic combination of molecular biology, 2-dimensional PAGE, and use of nonmammalian antibodies represents a powerful tool for reliable identification of allergens
Contribution of proteomics to understanding the role of tumor-derived exosomes in cancer progression: State of the art and new perspectives
Exosomes are nanometer-sized vesicles (40–100 nm diameter) of endocytic origin released
from different cell types under both normal and pathological conditions. They function as cell
free messengers, playing a relevant role in the cell–cell communication that is strongly related
to the nature of the molecules (proteins, mRNAs, miRNAs, and lipids) that they transport.
Tumor cells actively shed exosomes into their surrounding microenvironment and growing
evidence indicates that these vesicles have pleiotropic functions in the regulation of tumor
progression, promoting immune escape, tumor invasion, neovascularization, and metastasis.
During the last few years remarkable efforts have been made to obtain an accurate definition
of the protein content of tumor-derived exosomes (TDEs) by applying MS-based proteomic
technologies. To date, TDEs proteomic studies have been mainly utilized to catalog TDEs
proteins with the purpose of identifying disease biomarkers. The future challenge for improving
our understanding and characterization of TDEs will be the implementation of new systemsdriven
and proteomic integrative strategies. The aim of this article is to provide an overview of
the most characterized exosomes-mediated mechanisms that contribute to the pathogenesis of
cancer and to review recent proteomics data that support the protumorigenic role of TDEs
Sedimentology and composition of sands injected during the seismic crisis of May 2012 (Emilia, Italy): clues for source layer identification and liquefaction regime
InMay 2012widespread sand blows formed along buried channels in the eastern sector of the Po Plain (Northern
Italy) as a consequence of a series of seismic eventswith main shocks ofMw6.1 and 5.9. At San Carlo (Ferrara) a
trench dug a few week after the earthquakes exposed sand dikes cutting through an old Reno River channel–
levee system that was diverted in the 18th century and was deposited starting from the 14th century (unit A).
This sequence overlies a Holocene muddy floodplain deposits and contains scattered sandy channel deposits
(unit B) and a Pleistocene channel sand unit (unit C). Sands with inverse and normal grading, concave layering
and vertical lamination coexisting along the dikes suggest multiple rhythmic opening and closing of the fractures
that were injected and filled by a slurry of sand during the compression pulses, and emptied during the extension
phase. The pulse mechanism may have lasted for several minutes and formed well stratified sand volcanoes
structures that formed at the top of the fractures. Sands fromdikes and fromthe various units showwell defined
compositional fields from lithoarenitic to quartz-feldspar-rich compositions. Sands from the old Reno levee and
channel fill (unit A) have abundant lithic fragments derived fromthe erosion of Apennine sedimentary carbonate
and terrigenous successions. Composition of the sand filling the dikes showclear affinities with sand layers of the
old Reno River channel (Unit A) and clearly differ from any sand from deeper Holocene and Pleistocene layers
(Unit B and C),which are richer in quartz and feldspar and poorer in sedimentary lithic fragments. Sorting related
to sediment flux variations did not apparently affect the sand composition across the sedimentary structures.
Textural and compositional data indicate that the liquefaction processes originated from a relatively shallow
source consisting of channel sands located within Unit A at 6.8.to 7.5 m depth
I distretti del Mezzogiorno
CAP. 1. Definizione e caratteristiche del distretto;
CAP. 2. Come sono nati i distretti nel Mezzogiorno: fattori di successo ed insuccesso;2.1.Lo sviluppo dei distretti del Mezzogiorno: Brevi cenni storici; CAP. 3. I Distretti del Mezzogiorno; Il "Triangolo del Salotto"; Il polo calzaturiero aversano; La corsetteria di Lavello ;Il TAC del tacco
Il distretto barlettano delle calzature; L'abbigliamento della Puglia centrale; La percezione del fenomeno "distretto" dei piccoli e medi imprenditori in Campania, il caso di S. Giuseppe vesuviano e Solofra; Il distretto industriale di Solofra; Conclusioni
Three-Dimensional Cell Cultures: The Bridge between In Vitro and In Vivo Models
Although historically, the traditional bidimensional in vitro cell system has been widely used in research, providing much fundamental information regarding cellular functions and signaling pathways as well as nuclear activities, the simplicity of this system does not fully reflect the heterogeneity and complexity of the in vivo systems. From this arises the need to use animals for experimental research and in vivo testing. Nevertheless, animal use in experimentation presents various aspects of complexity, such as ethical issues, which led Russell and Burch in 1959 to formulate the 3R (Replacement, Reduction, and Refinement) principle, underlying the urgent need to introduce non-animal-based methods in research. Considering this, three-dimensional (3D) models emerged in the scientific community as a bridge between in vitro and in vivo models, allowing for the achievement of cell differentiation and complexity while avoiding the use of animals in experimental research. The purpose of this review is to provide a general overview of the most common methods to establish 3D cell culture and to discuss their promising applications. Three-dimensional cell cultures have been employed as models to study both organ physiology and diseases; moreover, they represent a valuable tool for studying many aspects of cancer. Finally, the possibility of using 3D models for drug screening and regenerative medicine paves the way for the development of new therapeutic opportunities for many diseases
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